Tutkijatohtori Tuomas Skriko

E-mail: Tuomas.Skriko@lut.fi
Mobile phone: +358407626006
Uploaded on: 21/08/2020

Current Organisation
Laboratory of Welding Technology (Superior organisation: Laboratory of Mechanical Engineering)

Research Interest
Nowadays, a wide variety of steel grades is available for different industry fields, of which products and applications demand various properties from the material used. However, the properties of welded joints determine the performance of a component, structure or final product usually more than the properties of pure base material. Thus, after appropriate material selection, the structure must be design and fabricate properly. The main challenge is to retain the good properties of the base material throughout the whole production chain all the way to the functional properties of the final product. In order to achieve this, the high quality of working must be carry out in each level of the production chain. In addition to general standards and guidelines for the quality assurance of welding and weld joints, extensive concepts for analyzing and governing the quality of design and fabrication of welded steel structures have also been introduced. These can be utilized, for example, when producing welded structures from high and ultra-high strength steels, of which use has increased during past decades in the engineering industry due to their potential in terms of payload capacity, structural durability, energy efficiency, emission control, life cycle management and recycling. However, applying high strength steels causes often stricter rules for design, narrower parameter windows for fabrication (e.g. welding) and more specific precepts for inspection compared to corresponding mild steel structures. Consequently, the management of the production chain by means of digitalization is emphasized in these types of demanding welded structural applications.

Teaching Experience
2012 → , Lecturer and examiner (continuing education), IIW/EWF Programmes, LUT University, Finland
- IWE / IWT: International Welding Engineer / Technologist degree programme
- IWSD: International Welded Structures Designer degree programme
- IMORWP: International Mechanized, Orbital and Robot Welding Personnel degree programme
- RWC-S: Responsible Welding Coordinator (level Specific) degree programme

2011 → , Lecturer and examiner (basic studies), Bachelor’s and Master's Programmes in Mechanical Engineering, LUT University, Finland
- Welding Technology courses
- Steel Structures courses

Projects as Project Manager
Energy-efficient systems based on renewable energy for Arctic conditions (01/11/2018 - 31/10/2021)
Funder: Other International

Projects as Co-Investigator
AluWeld (15/09/2020 - 15/09/2023)
Funder: Business Finland
ISA-LUT (01/01/2019 - 31/03/2021)
Funder: Business Finland
ProDi (01/01/2018 - 29/02/2020)
Funder: Tekes

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A knowledge-based multipass welding distortion estimation method for a multi-robot welding off-line programming and simulation software (2020)
A4 Conference proceedings
Lund Hannu, Penttilä Sakari, Skriko Tuomas
Procedia Manufacturing
Fatigue strength assessment of TIG-dressed ultra-high-strength steel fillet weld joints using the 4R method (2020)
A1 Journal article (refereed), original research
Mettänen Heli, Nykänen Timo, Skriko Tuomas, et al.
International Journal of Fatigue
Mechanical properties and microstructural evaluation of the heat-affected zone in ultra-high strength steels (2020)
A1 Journal article (refereed), original research
Amraei Mohsen, Afkhami Shahriar, Javaheri Vahid, et al.
Thin-Walled Structures
On the distortion and warping of cantilever beams with hollow section (2020)
A1 Journal article (refereed), original research
Björk Timo, Ahola Antti, Skriko Tuomas
Welding in the World
Use of the quasi-static Johnson-Cook model in the failure assessment of tensile specimens with metallurgical constraints (2020)
A1 Journal article (refereed), original research
Neuvonen Riku, Skriko Tuomas, Björk Timo
European Journal of Mechanics A: Solids
Experimental investigation on the fatigue strength assessment of welded joints made of S1100 ultra-high-strength steel in as-welded and post-weld treated condition (2019)
A4 Conference proceedings
Ahola Antti, Skriko Tuomas, Björk Timo
Proceedings of the 7th International Conference on Structural Engineering, Mechanics and Computation (SEMC 2019)
Fatigue strength assessment of ultra-high-strength steel fillet weld joints using 4R method (2019)
A1 Journal article (refereed), original research
Ahola Antti, Skriko Tuomas, Björk Timo
Journal of Constructional Steel Research
On the distortion and warping of cantilever beam with hollow section (IIW-Doc. XV-1606-19) (2019)
D4 Published development or research report or study
Björk Timo, Ahola Antti, Skriko Tuomas
4R method for consideration of the fatigue performance of welded joints - Background and applications (2018)
B3 Unrefereed conference proceedings
Björk Timo, Ahola Antti, Skriko Tuomas
Proceedings of the ninth international conference on advances in steel structures (ICASS 2018)

Empirical Study
Welded structures

Last updated on 2020-21-08 at 05:02

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